Our 42mm x 9mm Neodymium Male Threaded Pot has an outside diameter of 42mm, a thickness of 9mm and has a 12mm M8 threaded rod. This holding magnet has a pull force of fifty kilograms before releasing. (on a 3mm mild steel plate)

Description

Our 42mm x 9mm Neodymium Male Threaded Pot has an outside diameter of 42mm, a thickness of 9mm and has a 12mm M8 threaded rod. This holding magnet has a pull force of fifty kilograms before releasing. (on a 3mm mild steel plate)

Uses for our 42mm x 9mm Neodymium Male Threaded Pot:

Inside a round steel, casing sits a mounted Neodymium magnet. This changes the magnetic field produced by the magnet and deflects the field to create a powerful single sided holding magnet.

As a result of our magnets being very powerful on one side when compared to a raw magnet and because of the hole going through the thickness of the pot, they can be used as an excellent holding tool. Retail businesses no longer have to use permanent fixtures that damage property.

Instead, our pot magnets attach to any magnetic surface and by using the conveniently placed hole, can hang a wide range of items from signage to managing electrical cabling. Best of all they are completely removable should you need to relocate them.

Abrasion from this magnet may affect contact surfaces and due to this, we do not recommend that you use these magnets on fragile or sensitive surfaces. If you are wanting to use these in such areas we recommend the use of our rubber caps.

These rubber caps sit over the pot magnet and protect both the magnet and the surface they are being applied to.

Please be aware that using a rubber cap will reduce the pull force of the pot magnet. Because of this, we recommend that you use a larger pot magnet than you need. This is in order to make up for the loss in the pull force of the pot.

Neodymium pot magnets have a very high power to size ratio, even the smallest Neodymium magnets have a surprisingly large amount of pull. If subjected to temperatures of over 80°C Neodymium’s will start to permanently lose their magnetic properties. For high-temperature environments, we recommend the use of Samarium magnets.